Textile fabric, method of manufacturing the same and textile product manufactured using the same

ABSTRACT

A textile fabric has a pattern which is appeared when moisture makes contact with the textile fabric. A method of manufacturing the textile fabric includes coating hygroscopic softener on the textile fabric, printing a predetermined pattern on a surface of the textile fabric by pressing a roller on which the predetermined pattern is embossed, and a water-repellent solution is coated on a surface of the predetermined pattern, and drying the textile fabric.

TECHNICAL FIELD

The invention relates to a textile fabric having a pattern which is appeared when moisture makes contact with the textile fabric, a method of manufacturing the textile fabric, and a textile product manufactured using the textile fabric.

BACKGROUND ART

As an industry has been advanced and five-day working per week has been settled, interest in leisure and leisure culture has been increased. Therefore, in a textile industry, functional fabric that has a sense of aesthetics and comfort there is an increasing demand.

According to the Korea Federation of Textile Industries, a domestic outdoor market is growing explosively from KRW 520 billion in 2001 to KRW 1.7 trillion in 2008 and KRW 3 trillion in 2011.

An outdoor market has expanded to include, so-called extreme sport activities, tracking, rock climbing, marine sports, aerial sports, mountain biking, and both leisure and outdoor activities.

Generally, outdoor products belong to a high value-added product group having functional characteristics, but recently, there has been almost no technical differentiation between various products due to the development and spread of various technologies.

Thus, recently, there has been a demand for outdoor products that emphasize a design in which consumers may take advantage of their individual characteristics. In particular, in the case of products that are exposed to the body such as clothes or hats, sales depend on whether or not there is a design that improves beauty.

On the other hand, outdoor products are mostly used in outdoor leisure activities at mountains, seas and rivers, and therefore, and the goods are inevitably wet in the rain and snow weather. In general, waterproof function is given to the product itself or a waterproof cloth is used to surround the products to prevent inside from getting wet. However, since the outside of the product is wet, and user may feel bad due to the wet to product which aesthetic is deteriorated.

DISCLOSURE OF THE INVENTION Problem to be Solved

The present invention provides a textile fabric on which a predetermined pattern appears when the fiber fabric makes contact with moisture such as rain, snow, sweat and the like, and a method of manufacturing the same.

The present invention also provides a textile product which a pattern that gives aesthetically pleasing or promotional effect is naturally appeared thereon when rain, snow, or sweating, by manufactured using the textile fabric.

Technical Solution

To solve these problems, a method of manufacturing a textile fabric is provided.

(a) Hygroscopic softener is coated on the textile fabric. (b) A predetermined pattern is printed on a surface of the textile fabric by pressing a roller on which the predetermined pattern is embossed, and a water-repellent mixed solution is coated on a surface of the predetermined pattern. (c) The textile fabric is dried.

According to one feature of the method for manufacturing the textile fabric, the water-repellent mixed solution may be a mixture of 45 wt % to 55 wt % of water-repellent agent, 3 wt % to 7 wt % of fixing agent, 1 wt % to 3 wt % of silicone softer, 1 wt % to 5 wt % of thickener, and 30 wt % to 50 wt % of water.

According to another feature of the method for manufacturing the textile fabric, (d) a polyurethane may be coated on the other surface of the textile fabric.

According to still another feature of the method for manufacturing the textile fabric, in a step of (a), the textile fabric may pass through a tank in which the hygroscopic softener is stored at a speed of 20 yd/min to 40 yd/min, and then the textile fabric may be dried at a temperature of 160° C. to 180° C.

According to still another feature of the method for manufacturing the textile fabric, the textile fabric may pass through the roller at a temperature of 110° C. to 130° C. at a speed of 20 yd/min to 40 yd/min.

According to still another feature of the method for manufacturing the textile fabric, the pattern of the roller may include at least two regions having different coating amount of the water repellent mixed solution per unit area.

According to still another feature of the method for manufacturing the textile fabric, the roller may have a plurality of protrusions protruded therefrom in a region of the pattern.

According to still another feature of the method for manufacturing the textile fabric, the pattern of the roller may include a first region in which the water repellent mixed solution is applied to entire surface of the first region, and a second region in which a plurality of protrusions are protruded at the same height as the surface of the first region.

According to still another feature of the method for manufacturing the textile fabric, in a step of (c), the fiber fabric may pass through a tenter machine at a speed of 40 yd/min to 60 yd/min at a temperature of 160° C. to 180° C.

In addition, to solve these problems, a method of manufacturing a textile fabric is provided. A pattern is printed on a surface of the textile fabric by pressing the surface of the textile fabric using a pressing member with an embossed pattern. A water repellent mixed solution is coated on a surface of the embossed pattern. The textile fabric is dried.

In addition, to solve these problems, a textile product is provided. The textile product includes textile fabric manufactured by the method. When moisture makes contact with the textile fabric, the pattern printed on the textile fabric appears.

In addition, to solve these problems, a textile fabric is provided. The textile fabric includes a wettable portion and a non-wettable portion, wherein when textile fabric makes contact with moisture, a pattern appears due to a contrast of the wettable portion and the non-wettable portion.

According to one feature of the method for manufacturing the textile fabric, the water-repellent mixed solution may be a mixture of 45 wt % to 55 wt % of water-repellent agent, 3 wt % to 7 wt % of fixing agent, 1 wt % to 3 wt % of silicone softer, 1 wt % to 5 wt % of thickener, and 30 wt % to 50 wt % of water.

According to another feature of the method for manufacturing the textile fabric, the pattern may include at least two regions having different coating amount of the water repellent mixed solution per unit area.

According to still another feature of the method for manufacturing the textile fabric, the pattern may include a first pattern of which the water repellent mixed solution is applied to entire surface, and a second pattern of which has a plurality of the water repellent mixed solution spaced apart from each other by a predetermined gap, and a difference in shades of the first pattern and the second pattern when moisture may makes contact with.

In addition, to solve these problems, a textile product is provided. The textile product includes the textile fabric. When textile fabric makes contact with moisture, the pattern appears.

In addition, to solve these problems, a roller for manufacturing a textile fabric is provided. The roller includes an embossed pattern, wherein embossed pattern comprising at least two regions having different coating amount of a water repellent mixed solution per unit area.

According to one feature of a roller for manufacturing the textile fabric, the roller may further include a plurality of protrusions protruded therefrom in a region of the pattern.

According to another feature of a roller for manufacturing the textile fabric, the pattern may include a first region of which the water repellent mixed solution is applied to entire surface, and a second region in which a plurality of protrusions are protruded at the same height as the surface of the first region.

According to still another feature of a roller for manufacturing the textile fabric, coating solution may be a water-repellent mixed solution which is a mixture of 45 wt % to 55 wt % of water-repellent agent, 3 wt % to 7 wt % of fixing agent, 1 wt % to 3 wt % of silicone softer, 1 wt % to 5 wt % of thickener, and 30 wt % to 50 wt % of water.

Effect of the Invention

According to an example embodiment of the present invention, a textile fabric with a pattern which appears when the pattern makes contact with moisture, such as snow, rain, water and sweat may be provided.

In addition, according to an example embodiment of the present invention, the textile fabric has the pattern which when the pattern makes contact with moisture, such as snow, rain, water and sweat, so that not only aesthetics can be improved, but a publicity effect can also be obtained.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a flow chart illustrating a method of manufacturing a textile fabric according to an example embodiment of the present invention;

FIG. 2 is a process figure illustrating a method of manufacturing a textile fabric according to an example embodiment of the present invention;

FIG. 3 is a perspective view illustrating a textile product manufactured using a textile fabric according to an example embodiment of the present invention;

FIGS. 4 and 5 are pictures of textile product manufactured using a textile fabric according to an example embodiment of the present invention;

FIG. 6 is a perspective view illustrating a roller for manufacturing a textile fabric according to an example embodiment of the present invention;

FIG. 7 is a picture of a surface of a roller for manufacturing a textile fabric according to an example embodiment of the present invention; and

FIGS. 8 and 9 are pictures of textile product manufactured using a textile fabric according to another example embodiment of the present invention.

BEST EMBODIMENT OF THE INVENTION

Hereinafter, the invention will be explained in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the example embodiments set forth herein and shown in accompanying drawings. The same reference numerals will be used to refer to the same or like parts.

A textile fabric according to an embodiment of the present invention includes a wettable portion and a non-wettable portion. When the textile fabric is in contact with moisture, a pattern is formed on a surface thereof due to a contrast of a wet portion and a non-wet portion. Here, the wet portion may be the textile fabric itself, and a water-repellent mixed solution may be coated on the non-wet portion. In this case, the wet portion may be made to form a specific pattern, or the non-wet portion may be made to form a specific pattern. Hereinafter, the description will be made by taking as an example that the non-wet portion forms the specific pattern.

According to the embodiments of the present invention, a predetermined pattern of the textile fabric printed on a surface of the textile fabric appears when water is sprayed, so that a portion of the textile fabric that forms a particular shape is waterproof, and this can be achieved by forming a water repellent layer at a specific portion of the surface of the textile fabric.

The water repellent layer may be formed on a textile fabric in various methods. For example, a water repellent mixture may be applied to a pressing member having an embossed pattern, and the surface of the textile fabric may be pressed by the pressing member so that the embossed pattern is printed on the surface of the textile fabric. In this case, the pressing member can be applied without any particular limitations as far as it can press and print on the textile fabric. In the embodiment of the present invention, a roller is used.

For example, when one side of a textile fabric is pressed by the roller, the embossed pattern of the roller is printed on the surface of the textile fabric. The embossed pattern protruding from a surface of the roller is coated with a water repellent mixed solution. Therefore, the water repellent mixed solution is applied to the textile fabric together with the pattern printing by the roller.

As described above, when the textile fabric is wet with water, the water penetrates into the textile fabric, but where the water repellent mixed solution is coated, water repellent mixed solution prevents the moisture from penetrating into the textile fabric.

Accordingly, the pattern on the textile fabric appears because a portion of the textile fabric to which the water repellent mixed solution is not applied and a portion of the textile fabric to which the water repelling mixed solution is applied have different brightness. That is, as wet portion of the textile fabric becomes a dark shade and the portion where the water repellent mixed solution is applied is compared with the wet pattern portion, the pattern clearly appears on the surface of the textile fabric apparently.

Referring to FIGS. 1 and 2, a method of manufacturing a textile fabric according to an example embodiment of the present invention will be described in detail.

The method of manufacturing the textile fabric according to an example embodiment of the present invention coating hygroscopic softener (S100), printing water-repellent mixed solution (S200), drying (S300), and waterproof treatment (S400). Although the step of coating hygroscopic softener (S100), and printing water-repellent mixed solution (S200) can be omitted, the embodiment of the present invention will be described as including these two processes.

Coating Hygroscopic Softener (S100)

The hygroscopic softener is to absorb sweat and moisture quickly. When the hygroscopic softener on a textile fabric 10, even if a small amount of water makes contact with the textile fabric 10, a portion on which the water repellent mixed solution is not coated is well wetted. Accordingly, a pattern can be clearly seen as a whole.

For application of the hygroscopic softener, for example, as shown in FIG. 2, by immersing the textile fabric 10 in a bath 30 containing a hygroscopic softener along a plurality of rolls 20, the hygroscopic softener may be uniformly coated on the textile fabric 10. In this case, moving speed of the textile fabric 10 is preferably 20 yd/min to 40 yd/min. If the moving speed is less than 20 yd/min, transfer of the textile fabric 10 is too late, and productivity may be lowered. If the moving speed is more than 40 yd/min, the hygroscopic softener may not be uniformly applied to the textile fabric 10.

Thereafter, the textile fabric 10 coated with the hygroscopic softener is dried by passing through a drying chamber 40 having an internal temperature condition of 160° C. to 180° C. by a heater or hot air. If the drying temperature is less than 160° C., the drying time may increase, and productivity may be deteriorated. If the drying temperature is higher than 180° C., the textile fabric 10 may be thermally deformed.

After the application of the hygroscopic softener and the drying process, the textile fabric is wound in a form of a roll and transferred to a next step.

Printing a Water-Repellent Mixed Solution (S200)

After the application of the hygroscopic softener and the drying process, the textile fabric 10 is transported to the opposite side at a speed of 20 yd/min to 40 yd/min, and rolled. In this process, the roller 50 rotates to press one surface of the textile fabric 10, and a pattern of the predetermined pattern is repeatedly printed along the length of the textile fabric 10.

A predetermined pattern is embossed on the surface of the roller 50, and a water-repellent mixed solution is applied to the embossed pattern. Accordingly, the pattern of the surface of the roller 50 is correspondingly printed to the textile fabric 10 while one surface of the textile fabric 10 is pressed by the roller 50. The roller 50 can press the textile fabric 10 at a temperature of 110° C. to 130° C.

In this case, if the moving speed of the textile fabric 10 is less than 20 yd/min, productivity may be deteriorated, and if the moving speed of the textile fabric 10 exceeds 40 yd/min, printing quality may be deteriorated. In addition, if the temperature is lower than 110° C. when the roller 50 is pressed, printing may not be performed uniformly, and if the temperature is higher than 130° C., the textile fabric 10 may be thermally deformed.

In addition, as described above, a water-repellent mixed solution is coated on a protrusion 51 of the surface of the roller 50 which forms the pattern, and a water-repellent mixed solution is applied to the textile fabric 10 corresponding to the pattern of the protrusion 51 during the pattern printing process.

Here, the water-repellent mixed solution is a mixture of 45 wt % to 55 wt % of water-repellent agent, 3 wt % to 7 wt % of fixing agent, 1 wt % to 3 wt % of silicone softer, 1 wt % to 5 wt % of thickener, and 30 wt % to 50 wt % of water.

In this case, the water-repellent agent may be, for example, a solution of zirconium acetate. If the amount is less than 45 wt %, water repellency effect may be deteriorated. If the amount exceeds 55 wt %, effect according to the amount of injection may be insignificant and the economical efficiency may be lowered.

The fixing agent may be composed of, for example, a polyurethane solution for a fiber. If the amount is less than 3 wt %, fixing effect may be deteriorated. If the amount is more than 7 wt %, effect according to the amount of injection may be insignificant and the economical efficiency may be lowered.

The silicone softer is for imparting elasticity and flexibility to the textile fabric 10. If the amount is less than 1 wt %, softening effect may be deteriorated. If the amount is more than 3 wt %, effect according to the amount of injection may be insignificant and the economical efficiency may be lowered.

The thickener is added to improve efficiency of the padding operation of the textile fabric 10. If the amount is less than 1 wt %, effect may be deteriorated. If the amount is more than 5 wt %, effect according to the amount of injection may be insignificant and the economical efficiency may be lowered.

The water is used for dilution of the mixed solution, and 30 wt % to 50 wt % is added in consideration of the water repellency effect and economical efficiency.

As described above, the water-repellent mixed solution is coated to the protrusion 51 of the roller 50 and is applied in a form of a pattern on one side of the textile fabric 10 when the textile fabric 10 is pressed. When the textile fabric 10 is wetted, the portion where the water-repelling mixed solution is applied is prevented from penetration of water.

Accordingly, the water-repellent mixed solution applied to the textile fabric 10 in the form of the pattern is not normally visible, but when the textile fabric 10 is wetted with water, the pattern on the surface of the textile fabric 10 is appears by contrasting shade with wetted portion of the textile fabric 10.

In addition, after printing the pattern to which the water-repellent mixed solution is applied by the roller 50, the textile fabric 10 is wound into a roll form and transferred to a next step.

In addition, although the pattern is printed on the textile fabric 10 by the roller 50 in this embodiment, it is possible that the textile fabric 10 may be pressed by a pressing member such as a press to print the pattern on the textile fabric 10.

Drying (S300):

The textile fabric 10 on which the pattern is printed with the water-repellent mixed solution is conveyed to the opposite side at a speed of 40 to 60 yd/min and wound in a form of a roll again. While the textile fabric 10 is wound, drying is performed by passing through a tenter machine 60 in which an atmospheric temperature of 160° C. to 180° C.

In this case, if moving speed of the textile fabric 10 is less than 40 yd/min, the textile fabric 10 may be thermally deformed. If the moving speed of the textile fabric 10 exceeds 60 yd/min, uniformity of drying quality may be lowered.

The textile fabric 10 may be dried by hot air sprayed through inside of the tenter machine 60. At this time, a heat setting step and a shrinking step by heat treatment may be performed together. The textile fabric 10 which is wound into a roll and transferred to a next step.

Waterproof Treatment (S400):

In a step of waterproofing treatment, polyurethane is coated on the other side of the textile fabric 10, that is, the opposite side of the side on which the water-repellent mixed solution is printed.

In this case, the textile fabric 10 after drying is reversely transferred by 40 yd/min to 60 yd/min and the polyurethane is coated on the other side of the textile fabric 10 at a temperature of 120° C. to 140° C. so that the textile fabric 10 is wound again in a form of a roll. If moving speed of the textile fabric 10 is less than 40 yd/min, productivity may be degraded. If the moving speed of the textile fabric 10 exceeds 60 yd/min, it may be difficult to obtain a uniform coating layer.

Here, the polyurethane coated on the other side of the textile fabric 10 may perform a function of preventing passage of moisture. Accordingly, the pattern may appear on the surface of the textile fabric 10 by penetration of moisture. However, a body wrapped by a textile fabric or inside of the textile product may be prevented from being wetted by the polyurethane coating layer.

FIG. 3 shows a leisure cap as an example of a textile product manufactured using the textile fabric according to an embodiment of the present invention.

The textile fabric 10 according to the embodiment of the present invention may be applied to various textile products. Especially, the textile fabric 10 may be applied to a rain cover of an outdoor backpack, an umbrella, climbing clothes, a cap, etc. The textile fabric 10 may be applied to a variety of outdoor items, such as aquatic clothing, such as swimwear, which are mainly used in water. As an example, a leisure cap 100 to be worn when exercising golf, tennis, or outdoor activities such as jogging or walking can also be manufactured using the textile fabric 10 according to the embodiment of the present invention.

In this case, the leisure cap 100 includes a crown 110 having a hollow hemisphere shape to cover a head and a visor 120 extending outward from a lower side of the crown 110 and covering the sunlight. A sweat absorbing band 130 may be interposed between the visor 120 and the crown 110 with a predetermined width. The sweat absorbing band 130 is normally folded in an inner side of the crown 110 to absorb sweat of a forehead and may be exposed to the outside of the crown 110 if necessary.

FIGS. 4 and 5 are pictures of textile product manufactured using a textile fabric according to an example embodiment of the present invention. FIG. 4 is a picture of a leisure cap on which any pattern appears before contact with water, and FIG. 5 is a picture of the leisure cap on which patterns clearly appears by being wetted.

Comparing FIG. 4 with FIG. 5, when the leisure cap 100 is wetted, a pattern of a predetermined shape (floral pattern in the present embodiment) appears on the leisure cap 100 by contrasting shade with a non-wetted region.

In a case of the embodiment shown in FIGS. 4 and 5, the crown 110 and the visor 120 is formed using the textile fabric 10. However, it is needless to say that one or more than two of the crown 110, the cap 120 and the sweat band 130 may be formed using the textile fabric 10.

In addition, as described above, according to the textile fabric according to the embodiment of the present invention, the pattern divided into two regions (bright region and dark region) by contrast to shade of wetted region and non-wet region thereon. In this case, by varying the degree of water absorption in the textile fabric 10, a pattern divided into three or more regions may be embodied. And, this may be achieved by varying the application amount of the water-repellent mixed solution to the textile fabric 10 according to the regions of the pattern.

FIG. 6 shows an example of a roller for manufacturing a textile fabric capable of showing a pattern divided into three regions thereon when the textile fabric is wetted.

FIG. 7 is a picture of a surface of the roller for manufacturing the textile fabric.

A roller 50′ for manufacturing a textile fabric according to an embodiment of the present invention has a pattern which is embossed on a surface of the roller 50′. The patterns of the rollers 50′ include at least two regions in which coating liquid per unit area, that is, application amount of water-repellent mixed solution per unit area is different from each other.

As an example, a surface of a first region A may be formed as a smooth surface, and a plurality of protrusions 52 may be formed on a surface of a second region B by a predetermined distance. Here, end of the protrusion 52 in the second region B is formed at the same height as the surface of the first region A.

When the water-repellent mixed solution is coated on the roller 50′, the water-repellent mixed solution is applied only to a surface of the embossed pattern, so that the water-repellent mixed solution is coated entire of the surface of the first regions A, and the water-repellent mixed solution is coated only on the end of the protrusions 52 in the second region B. Accordingly, application amount of the water-repellent mixed solution per unit area of the first region A becomes larger than application amount of the water-repellent mixed solution per unit area of the second region B.

When the pattern is printed on the surface of the textile fabric 10 by using the roller 50′, the water-repellent mixed solution is uniformly printed on the entire area in a portion of the pattern corresponding to the first region A of the roller 50′, and the water-repellent mixed solution is printed on a portion of the pattern corresponding to the second region B of the roller 50′ with a smaller amount of the water-repelling mixed solution than that of the first region A.

When the textile fabric 10 on which the water-repelling mixed solution is printed by pressing the roller 50′ becomes wet with water, the portion of the pattern corresponding to the first region A is not wetted with water and appears bright because the water-repelling mixed solution is entirely coated. Since the portion of the pattern corresponding to the second region B is not formed entirely of the water-repelling mixed solution, but a plurality of water-repellent mixed solutions are spaced apart from each other by the predetermined distance, portions between the water-repellent mixed solutions becomes wet with water. Accordingly, the portion of pattern corresponding to the second region B is somewhat darker than the portion of the pattern corresponding to the first region A as a whole. And, the portion of the textile fabric 10 where the pattern is not printed at all is completely wetted with water and appears darker than the second region B.

That is, the rollers for manufacturing the textile fabric according to the embodiment of the present invention may show a pattern which has a portion which is not wetted with water (the portion corresponding to the first region A), a portion slightly wetted with water (the portion corresponding to the second region B) and a portion fully wetted with water (where the pattern is not printed) can be manufactured in which the pattern divided into three regions.

In addition, although not shown in figures, density of the protrusions 52 per unit area may be different from each other depending on regions of the pattern, so that a plurality of regions having different amounts of the water-repellent mixed solution per unit area may be formed. For example, a plurality of the protrusions 52 may be formed in the first region A and the second region B such that a narrow gap between the protrusions in the first region A and a wide gap between the protrusions 52 in the second region B. Accordingly, a portion of the textile fabric corresponding to the second region B is wetted with water more than a portion corresponding to the first region A, so that shadow contrast may be formed between the first area A and the second area B.

FIG. 7 is a picture of a surface of a roller for manufacturing a textile fabric according to an example embodiment of the present invention. The first region A of the embossed pattern is formed as a smooth surface and a plurality of protrusions 52 are formed in the second region B. In this case, a plurality of protrusions 52 may be formed in a region C where the pattern is not embossed, and the protrusions 52 of the second region B are formed more closely than the protrusions of the region C where the pattern is not embossed.

FIGS. 8 and 9 are pictures of textile product manufactured using a textile fabric according to another example embodiment of the present invention, in which a leisure cap is applied as an example of the textile product. FIG. 8 shows the leisure cap before being wetted, and FIG. 9 shows the leisure cap on which patterns divided into three regions by being wetted appear. As illustrated in FIG. 9, a portion of the pattern A′ corresponding to a first region A is brighter than a portion of the pattern B′ corresponding to a second region B, and the portion of the pattern B′ corresponding to the second region B is brighter than a portion of the pattern C′ at which the water-repelling mixed solution is not coated.

Although the embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims.

INDUSTRIAL APPLICABILITY

The present invention provides a textile fabric on which a predetermined pattern appears when the fiber fabric makes contact with moisture such as rain, snow, sweat and the like, and a method of manufacturing the same.

The present invention also provides a textile product which a pattern is appeared thereon when rain, snow, or sweating. As a result, not only the aesthetics of the textile product can be improved, but also a promotional effect can be obtained. 

1-20. (canceled) 21: A method of manufacturing a textile fabric, comprising: printing a pattern on one surface of the textile fabric by pressing the surface of the textile fabric using a pressing member on which a pattern is embossed, wherein a water repellent solution is coated on a surface of the pattern; and drying the textile fabric. 22: The method of claim 21 further comprising: coating hygroscopic softener on the textile fabric before the printing, wherein the pressing member is a roller on which the pattern is embossed. 23: The method of claim 22, wherein the water-repellent solution is a mixture of 45 wt % to 55 wt % of a water-repellent agent, 3 wt % to 7 wt % of a fixing agent, 1 wt % to 3 wt % of a silicone softer, 1 wt % to 5 wt % of a thickener, and 30 wt % to 50 wt % of water. 24: The method of claim 22, further comprising: coating a polyurethane on the other surface of the textile fabric. 25: The method of claim 22, wherein the coating of the hygroscopic softener comprises making the textile fabric pass through a tank in which the hygroscopic softener is stored at a speed of 20 yd/min to 40 yd/min, and then drying the textile fabric at a temperature of 160° C. to 180° C. before the printing. 26: The method of claim 22, wherein the printing comprises making the textile fabric pass through the roller at a temperature of 110° C. to 130° C. at a speed of 20 yd/min to 40 yd/min. 27: The method of claim 22, wherein the pattern of the roller comprises at least two regions having different coating amounts of the water repellent solution per unit area. 28: The method of claim 27, wherein the roller has a plurality of protrusions protruded therefrom in a region of the pattern. 29: The method of claim 27, wherein the pattern of the roller comprises: a first region formed by applying the water repellent solution to an entire surface of the first region; and a second region in which a plurality of protrusions are protruded at the same height as the surface of the first region. 30: The method of claim 22, wherein the drying comprises making the fiber fabric pass through a tenter machine at a speed of 40 yd/min to 60 yd/min at a temperature of 160° C. to 180° C. 31: A textile product comprising the textile fabric manufactured by the method of claim 21, wherein, when moisture makes contact with the textile fabric, the pattern printed on the textile fabric appears. 32: A textile fabric comprising a wettable portion and a non-wettable portion, wherein, when textile fabric makes contact with moisture, a pattern appears due to a contrast of the wettable portion and the non wettable portion. 33: The method of claim 32, wherein the non-wettable portion is coated with a water repellent solution. 34: The method of claim 33, wherein the water-repellent solution is a mixture of 45 wt % to 55 wt % of a water-repellent agent, 3 wt % to 7 wt % of a fixing agent, 1 wt % to 3 wt % of a silicone softer, 1 wt % to 5 wt % of a thickener, and 30 wt % to 50 wt % of water. 35: The method of claim 33, wherein the pattern comprises at least two regions having different coating amounts of the water repellent solution per unit area. 36: The method of claim 33, wherein the pattern comprises: a first pattern formed by applying the water repellent solution to an entire surface of the first pattern; and a second pattern having a plurality of first areas to which the water repellent solution is applied, wherein the plurality of first areas are spaced apart from each other by a second area to which the water-repellant solution is not applied so that the first pattern and the second pattern has a difference in shades when moisture makes contact with the first pattern and second pattern. 37: A textile product comprising the textile fabric of claim 32, wherein, when textile fabric makes contact with moisture, the pattern appears. 38: A roller for manufacturing a textile fabric comprising: a pattern embossed on a surface of the roller, wherein the pattern comprising at least two regions having different coating amounts of a water repellent solution per unit area. 39: The roller of claim 38, further comprising a plurality of protrusions protruded therefrom in a region of the pattern. 40: The roller of claim 38, wherein the pattern comprises: a first region formed by applying the water repellent solution to an entire surface of the first region; and a second region in which a plurality of protrusions are protruded at the same height as the surface of the first region. 